WO1999023814A1 - Dispositif de communication de donnees et procede de communication de donnees - Google Patents

Dispositif de communication de donnees et procede de communication de donnees Download PDF

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Publication number
WO1999023814A1
WO1999023814A1 PCT/JP1998/004978 JP9804978W WO9923814A1 WO 1999023814 A1 WO1999023814 A1 WO 1999023814A1 JP 9804978 W JP9804978 W JP 9804978W WO 9923814 A1 WO9923814 A1 WO 9923814A1
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WO
WIPO (PCT)
Prior art keywords
communication
procedure
control information
modem
data communication
Prior art date
Application number
PCT/JP1998/004978
Other languages
English (en)
Japanese (ja)
Inventor
Takafumi Higuchi
Original Assignee
Matsushita Graphic Communication Systems, Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Matsushita Graphic Communication Systems, Inc. filed Critical Matsushita Graphic Communication Systems, Inc.
Priority to BR9806845-8A priority Critical patent/BR9806845A/pt
Priority to EP98951692A priority patent/EP0973323B1/fr
Priority to US09/331,716 priority patent/US6449349B1/en
Priority to CNB988016850A priority patent/CN1158852C/zh
Priority to DE69836906T priority patent/DE69836906T2/de
Priority to CA002276775A priority patent/CA2276775C/fr
Publication of WO1999023814A1 publication Critical patent/WO1999023814A1/fr
Priority to HK00102274A priority patent/HK1023247A1/xx

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/32Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/32Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
    • H04N1/327Initiating, continuing or ending a single-mode communication; Handshaking therefor
    • H04N1/32789Details of handshaking
    • H04N1/32791Arrangements for reducing the handshaking procedure or protocol time
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/32Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
    • H04N1/32609Fault detection or counter-measures, e.g. original mis-positioned, shortage of paper
    • H04N1/32614Fault detection or counter-measures, e.g. original mis-positioned, shortage of paper related to a single-mode communication, e.g. at the transmitter or at the receiver
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/32Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
    • H04N1/327Initiating, continuing or ending a single-mode communication; Handshaking therefor
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/32Circuits or arrangements for control or supervision between transmitter and receiver or between image input and image output device, e.g. between a still-image camera and its memory or between a still-image camera and a printer device
    • H04N1/333Mode signalling or mode changing; Handshaking therefor
    • H04N1/33369Storage of mode or retrieval of prestored mode

Definitions

  • the present invention relates to a data communication apparatus and a data communication method for reducing the time required for a pre-procedure performed prior to data communication using a modem, for example, facsimile communication.
  • a data communication device has been performing data communication in a V.34 mode (33.6 kbps) as defined in the ITU-T.
  • V.34 mode 33.6 kbps
  • T30ANEXF super G3
  • super G3 a facsimile communication standard using the V.34 modem.
  • the pre-procedure of facsimile communication is executed in accordance with this standard, and then the image data communication is performed.
  • FIG. 1 is a control signal diagram of a pre-procedure of facsimile communication of the prior art.
  • 19a is a communication procedure for selecting a modulation mode from among V34 half duplex, V34 full duplex, V17 half duplex, and the like.
  • 19b is a communication procedure for inspecting the line and performing line probing to determine various parameters.
  • 19c is the communication procedure for modem training.
  • 19d is a communication procedure for setting modem parameters.
  • 19e is a communication procedure for exchanging facsimile control signals.
  • 19 f is the data communication procedure of the main channel.
  • the upper side of the figure is the calling side sequence and the lower side is the called side sequence, and the sequence proceeds from left to right.
  • the calling side transmits a line probing tone.
  • the line probing tone is received, a line check is performed, and a training parameter is selected based on the result of the line check.
  • the calling side transmits a training signal based on the training parameters selected in the communication procedure 10b of the line probing.
  • the receiving side receives the training signal, learns the filter coefficients of the adaptive equalizer for correcting the line characteristics, and checks the reception quality of the training signal.
  • the modem parameters are negotiated between the calling side and the called side by the full-duplex communication of 1200 bps.
  • the optimum modem parameters are selected from the preset modem parameters, the line inspection result, and the reception quality inspection of the training signal.
  • the image data is transmitted from the calling side by half-duplex communication from 2400 bps to 33.6 kbps.
  • the called party receives the image data.
  • image data can be transmitted in about 3 seconds per A4 sheet.
  • the transmitting modem and the receiving modem that execute the above communication procedure are the same as the training parameters selected in the communication line probing communication procedure 19 b and the communication parameters for the modem parameter selection 19 d. Communication is performed according to the above-mentioned modem parameters selected in.
  • the receiving modem performs communication using the one filter coefficient learned in modem training 19b in order to correct the line characteristics. As a result, optimal data communication according to the line quality is performed.
  • the present invention has been made in view of the above-mentioned problems, and has as its object to provide a data communication device capable of shortening the time of a pre-communication procedure including the setting of various parameters of a modem and the time of modem training. Aim.
  • the present invention provides a storage means for storing various control information of a modem for each destination corresponding to an operation key, and a calling means for starting a communication by calling the destination by a transmission instruction from the operation key.
  • a communication is performed in which the pre-communication procedure is shortened and data is transmitted by transmitting a notification signal for transition to the short-communication pre-procedure and then operating the modem according to the various control information. Control hand And a stage.
  • a data communication device is a storage device that stores various types of control information of a modem for each destination corresponding to an operation key, and makes a call to the destination according to a transmission instruction from the operation key.
  • Calling means for starting communication by means of a call, and communication between the calling means is performed by transmitting a notification signal for transition to a short communication pre-procedure and then operating a modem based on the various kinds of control information to thereby execute a pre-communication procedure.
  • a communication control means for transmitting data by shortening.
  • the communication with the destination registered in the operation key is performed by the shortening procedure based on the control information stored in the storage means, so that the operator can shorten the communication time with an extremely simple operation. Since it is not necessary to obtain modem control information suitable for the destination by communication, the time required for the pre-communication procedure is significantly reduced.
  • the control information referred to here is, for example, a modem parameter overnight or a modem training time.
  • the communication control means arrives from the receiving side apparatus for a call signal transmitted in a pre-communication procedure of IT UZV.34 recommendation.
  • a notification signal for transition to the shortened procedure is sent.
  • the receiving side device receives either the call menu signal of the V.34 procedure or the transition notification signal to the abbreviated procedure, and only needs to identify them. It is possible to receive the transition notification signal to the shortened procedure without requiring a special change of the signal processing circuit.
  • the communication control means determines whether or not various control information of the modem is stored in the storage means prior to shifting to the pre-shortened communication procedure. Is confirmed, and the pre-shortened-communication procedure is executed only when the control information is stored.
  • control of the communication control unit can be simplified.
  • the communication control means only needs to check the writing state of the storage means.
  • the function of the pre-abbreviated communication procedure can be easily switched on and off.
  • the communication performed to the destination while only the destination information corresponding to the operation key is stored in the storage unit.
  • a parameter registration means for storing in the storage means various kinds of modem control information obtained in the pre-communication procedure.
  • the destination information referred to here is information specifying the destination, such as the name of the destination, a telephone number, and ID information.
  • a fifth aspect of the present invention is the data communication apparatus according to the fourth aspect, further comprising an abnormality detecting means for detecting an abnormality in the communication, wherein the communication control means comprises: When an error is detected during the normal communication procedure for registering the control information, the control information is not registered by the parameter registration means.
  • the parameter registration means of the fourth aspect described above is for automatically registering various control information of the modem obtained in the normal pre-communication procedure. Since an error is highly likely to occur, it was decided not to register control information in this case. As a result, the procedure before shortened communication is not executed in the next communication, so that an increase in communication time due to an error in execution of the shortened procedure can be avoided.
  • the process for preventing the registration of the control information by the parameter registering means is performed by temporarily controlling the control information acquired during the normal communication procedure.
  • the configuration is such that the data is erased after being stored in the storage means.
  • the communication control means if the pre-shortened communication procedure does not proceed normally, after a lapse of a predetermined time, before the normal communication.
  • the configuration is such that communication is continued according to the procedure or the second communication procedure with a slower communication speed is continued.
  • the communication procedure to be shifted may be a communication procedure having the same communication speed as the communication procedure at the time of executing the shortened procedure, or a communication procedure having a lower communication speed.
  • An eighth aspect of the present invention is the data communication apparatus according to the seventh aspect, wherein the second communication procedure is an ITUZT.30 communication procedure, and the predetermined time is shifted to the second communication procedure. It is characterized by the time during which the NSFZCS I ZDIS signal of T.30 can be received twice or more.
  • the procedure shifts to the T.30 communication procedure and waits for a control signal of 300 bps. Since the NSFZCS I ZD I S signal is repeatedly transmitted, a minimum of two reception times is secured so that a communication error does not occur even if the first control signal reception fails. Therefore, even if the partner device has been changed to a model that does not have the shortening procedure, or if the shortening procedure has failed, it is possible to surely shift to the T.30 procedure.
  • the communication control means retrys the shortened communication pre-procedure when the shortened communication pre-procedure does not normally proceed. After the number of times reaches a certain value, the system shifts to the second communication procedure with slow communication speed and continues communication. This is such that the seventh mode shifts to the second communication procedure after a predetermined time has elapsed, whereas the seventh mode shifts to the second communication procedure depending on the number of retries of the shortened procedure.
  • the data communication apparatus further includes abnormality detection means for detecting a communication abnormality
  • the communication control means comprises: When an abnormality is detected after the start of the execution of, the destination information stored in the storage means is retained, and only corresponding various control information is deleted.
  • control information used at that time will be likely to become an error again if it is used in the future, so it will be deleted from the storage means.
  • communication errors that occur after the start of the shortened procedure can be considered both during the pre-communication procedure and during communication after the completion of the pre-communication procedure. The subsequent handling of control information differs depending on whether or not.
  • the data communication apparatus further performs communication using the normal pre-communication procedure in the same call.
  • control information of the storage means is automatically updated in the same call. Therefore, the next communication is also started by the short procedure. An error may occur again due to the updated control information, but if this is repeated, execution of the shortening procedure itself is prohibited as described later.
  • the abnormality detecting means is configured such that the data transmission error rate of the communication after the execution of the shortened communication pre-procedure or the normal pre-communication procedure is a predetermined value. When the number increases, it is determined to be abnormal. With this configuration, for example, when the error rate gradually increases during communication Then, it is determined that the control information registered in the storage means is an inappropriate parameter. This is especially effective when the line quality is better than usual when registering parameters.
  • the abnormality detecting means includes a data transmission rate of a communication after execution of the short pre-communication procedure or the normal pre-communication procedure.
  • the data rate is lower than the data transmission rate of the communication procedure with a lower communication speed, it is determined to be abnormal.
  • the data communication device after erasing the control information from the storage means, before the next normal communication performed to the destination A configuration is provided that includes parameter registration means for storing various control information of the modem obtained in the procedure in the storage means.
  • the system is configured to prohibit execution of the pre-abbreviated communication procedure for the destination.
  • the error rate may be calculated when a predetermined number of shortened procedures is executed, or the number of errors may be simply counted.
  • the counting of the number of errors includes an error counter that counts the number of errors that occur in the shortening procedure. Each time the various control information stored in the storage unit is deleted, the error is counted. What is necessary is just to make the structure which counts up the countdown.
  • the error counter determines whether or not the communication is a communication started by the shortened communication pre-procedure before counting up. Otherwise, the error counter was not counted.
  • the communication control means determines whether or not various control information of the modem can be registered in the storage means before shifting to the pre-shortened communication procedure. Upon confirmation, if the control information cannot be registered, the pre-shortened communication procedure is not executed.
  • a parameter registering means for storing in the storage means various control information of the modem acquired in the normal pre-communication procedure.
  • the prohibition of the execution of the pre-abbreviated communication procedure is performed by prohibiting the writing of the various control information of the modem to the parameter overnight registration means.
  • the operation means for changing the destination name or the destination telephone number stored in the storage means, and the destination telephone input by the operation means
  • a memory control means for automatically erasing all information in the related information storage area including the modem control information stored corresponding to the destination telephone number when the number is changed.
  • an operation means for inputting a unique identification code of the own device, and a case where the identification code input by the operation means is changed.
  • the pre-abbreviated communication procedure executed for a plurality of destinations continuously becomes unsuccessful it is stored for all the telephone numbers registered as destinations.
  • a twenty-fourth aspect of the present invention is the data communication device according to the first to fourth aspects, wherein the control information is deleted from the storage means after a lapse of a fixed period from the registration of the control information in the storage means, The control information is updated by the registration means.
  • the modem control information registered in the storage means can always be maintained in an optimal state.
  • the data communication device further comprises a memory control means for rewriting the control information of the modem registered in the storage means, and performs a normal pre-communication procedure.
  • the memory control means corrects and re-records the modem control information registered in the storage means, taking into account the newly acquired modem control information. .
  • the parameters are corrected and learned every time the communication is performed, so that the modem parameters are maintained at the optimal value.Thus, while using the shortening procedure, the communication time is short, the communication speed is high, and Optimal communication with a low error rate can be performed.
  • an optimum modem is determined based on a plurality of modem control information obtained by repeatedly executing a normal pre-communication procedure a plurality of times.
  • the control information is calculated, and the calculated control information is registered in the storage means.
  • FIG. 1 is a control signal diagram showing a communication procedure of a conventional V.34 modem.
  • FIG. 2 is a block diagram showing a basic configuration of a facsimile apparatus to which the data communication apparatus according to the first embodiment of the present invention is applied. Show,
  • FIG. 3 shows a functional configuration diagram of a digital signal processing unit of the data communication device according to the first embodiment.
  • FIG. 4 is an explanatory diagram showing a tone group of a line probing tone signal of the data communication device according to the first embodiment
  • FIG. 5 shows a block diagram of a training receiving unit of the data communication device according to the first embodiment
  • FIG. 6 is an explanatory diagram showing the calculation of the optimal training time of the data communication device according to the first embodiment.
  • FIG. 7 is a flowchart showing a control operation of the data communication device according to the first embodiment when a transmission call is made
  • FIG. 8 shows a memory configuration diagram of the shortened procedure registration memory of the data communication device of the first embodiment.
  • FIG. 9 is a flowchart showing a control operation of the data communication device according to the first embodiment at the time of receiving a call.
  • FIG. 10 is a flowchart showing a control procedure at the time of registering the shortened procedure of the data communication apparatus according to the first embodiment
  • FIG. 11 shows a control signal diagram at the time of the shortening procedure of the data communication device of the first embodiment
  • FIG. 12 is a flowchart showing an update process of the modem parameters registered in the short procedure of the data communication device according to the first embodiment.
  • FIG. 13 is a flowchart showing a check process of a storage parameter of the data communication device according to the first embodiment.
  • FIG. 14 is a flowchart showing a process of prohibiting registration of a modem parameter of the data communication device according to the first embodiment.
  • FIG. 15 is a flowchart showing a process when the destination name of the data communication device according to the first embodiment is changed.
  • FIG. 16 is a flowchart showing a process performed when the telephone number of the destination of the data communication device according to the first embodiment is changed.
  • FIG. 17 is a flowchart showing processing when the ID information of the own station of the data communication apparatus according to the first embodiment is changed.
  • FIG. 18 is a flowchart showing an outline of the operation of the receiving device of the data communication device according to the first embodiment.
  • FIG. 19 shows a flowchart of a control procedure of the overnight communication device according to Embodiment 2 of the present invention.
  • FIG. 2 is a basic block diagram of a facsimile apparatus to which the present invention is applied.
  • a reading unit 101 reads a document image.
  • the recording unit 102 records and outputs the received image.
  • the control unit 103 controls the entire apparatus, controls the coding and decoding of the image signal, and controls the execution of the communication procedure.
  • the modem 104 implements all modulation and demodulation of the facsimile communication procedure specified in T.30 ANEXF of ITU-T.
  • the modem 104 has a digital signal processing unit (DSP) 104a that performs signal processing of the modem, and an analog front-end unit (AFE) 104b that has both AZD conversion and D / A conversion functions.
  • DSP digital signal processing unit
  • AFE analog front-end unit
  • a line control unit (NCU) 105 controls dialing and calling for the line 106.
  • the operation unit 107 includes various key input switches, such as a dial key and a start key, and a display for displaying information. Dress Various operations of the device are performed by the operation unit 107.
  • the memory 108 stores various information for executing the shortening procedure when performing communication in correspondence with a communication partner having the function of the shortening procedure.
  • information such as a telephone number and a modem parameter is stored in the memory 108 as shown in FIG.
  • the power suppression value indicating the signal power and the time value indicating the training time are set, and one of two types, high level and low level, is selected and selected.
  • the selection is made by selecting various parameters such as selection of the phase filter, selection of the symbol speed selection to select the five speeds to be sent to the eye pattern, and selection of the training constellation point.
  • DSP digital signal processing unit
  • the modem control unit 201 controls the interface between the control unit 103 and the modem 104 and various modem functions.
  • the modem control unit 201 has a plurality of functional units described below, and these are usually executed by software.
  • the tonal transmission function unit 202 transmits various tonal signals according to the communication procedure.
  • the tonal detection unit 203 identifies a tonal signal transmitted from the communication partner.
  • the V.21 modem 204 is a modem (300 bps, full-duplex) compliant with the ITU-T recommendation V.21.
  • the I NFO modem 205 is a modem (600 bps, full-duplex) that communicates in the I NF ⁇ sequence in accordance with ITU-T Recommendation V.34. Used in startup procedure.
  • the control channel modem function section 206 is a modem (1200 bps or 2400 bps, full duplex) for the control channel specified in ITU-T Recommendation V.34, and sets the modem parameters for the main channel modem. It is used in the communication procedure of the facsimile control signal.
  • the main channel modem function section 207 is a main channel modem (2400 bps to 33.6 kbps, half-duplex) specified in Recommendation 1 to 34 and is used for image data communication. .
  • the line probing transmission function unit 208 transmits a line probing tone defined in V.34.
  • This line probing tone is a composite signal of 21 types of null signals from 150 Hz to 3750 Hz shown in FIG.
  • the line probing reception function unit 209 receives a line probing tone from a communication partner and performs a line check. Specifically, the line probing receiving unit 209 performs a spectrum analysis of the line probing tone by a fast Fourier transform algorithm, and selects an optimum symbol rate, carrier selection, and other modems for the main channel modem 207. Make a selection of parameters.
  • the training transmission function unit 210 transmits a training signal of the V.34 modem.
  • the training signal unit 211 receives a training signal from a communication partner and learns filter coefficients of an adaptive equalizer for correcting line distortion.
  • the demodulator 401 converts the received training signal Sp that has been A / D-converted by the analog front-end unit 104b from a passband to a complex baseband signal Yb.
  • Adaptive equalizer 402 corrects the line distortion for baseband signal Yb and outputs received signal Yr.
  • the determiner 403 determines and outputs the determination point Yd.
  • the determination point Yd is used to determine the amount of deviation of the point on the eye pattern of the received signal Yr.
  • the subtractor 404 subtracts the determination point Yd from the received signal Yr and outputs an error signal Er. Note that Yb, Yr, Yd, and Er are complex signals.
  • the error signal Er is supplied to the adaptive equalizer 402, and the adaptive equalizer 402 learns internal filter coefficients so as to reduce the error signal Er. Learned internal fill coefficient Is used as the receive filter coefficient for the main channel modem 207.
  • the absolute value calculator 405 calculates the absolute value of the error signal Er.
  • LPF 406 is a single pass filter for smoothing the output signal Ea of the absolute value device 405.
  • the output signal of LPF 406 is an EQM signal representing the degree of correction of the line distortion of adaptive equalizer 402. The smaller this EQM signal is, the more the line distortion is corrected.
  • the equalization capability analyzer 407 analyzes the correction capability of the adaptive equalizer 402 for the line distortion from the EQM signal. As shown in Fig. 6, the equalization capability analysis unit 407 observes the amount of change in the EQM signal from the start of training and measures the time from when the absolute value of the amount of change becomes smaller than a certain value. Calculate as the optimal training time. The final value of the EQM signal is used as the noise power to calculate the training signal power to noise power ratio (SN). Training signal power is the absolute value of the point at the eye point from the origin. Noise power is the point error in the eye pattern.
  • the optimal training time is used as the training time during the shortened procedure.
  • the SN ratio is used to select the data transfer rate of the main channel modem unit 207.
  • FIG. 7 is a flowchart showing a control operation of the facsimile apparatus according to the present embodiment at the time of calling transmission.
  • step (hereinafter ST) 601 a call is started in accordance with the telephone number of the transmission destination and the transmission start instruction from the operation unit 107.
  • the memory 108 is searched to check whether the telephone number of the transmission destination is registered in the shortening procedure. If not registered, proceed to ST602 to make a dial call.
  • facsimile communication is performed by a normal communication procedure based on T30 AN EXF of ITU-T.
  • ST 605 performs the normal communication on the transmitter side and also executes the shortening procedure. Execute registration of various parameters overnight.
  • Shortening procedure Contents to be registered include, for example, information on power suppression value and carrier selection information, optimum training time, and nonlinear correction distortion correction value selection information.
  • the contents to be registered in the abbreviated procedure are stored in the memory 108 according to the memory configuration of the abbreviated procedure registration memory shown in FIG.
  • ST 609 it is determined whether there is a communication error. If there is no communication error, proceed to ST610. In ST610, the degree of data error is determined during communication, and if there are few data errors, the process ends. The determination of the error rate may be made based on, for example, the number of retransmissions in the ECM.
  • the training time is set according to the learning time of the filter coefficient of the adaptive equalizer of the receiving device, but is usually set to a length that can be applied to all lines. . For this reason, when communication is performed on a line with good communication quality, the learning time of the filter coefficient is shorter than the normal setting, and the training time may be wasted. Therefore, the execution time of the pre-communication procedure is shortened by executing the pre-communication procedure using the communication parameters stored in advance.
  • FIG. 9 is a flowchart showing a control operation of a pre-communication procedure at the time of reception of the facsimile apparatus of the present embodiment.
  • the ST 801 transmits a modified response tone signal AN Sam signal after receiving a call according to the call receiving instruction from the line 106.
  • the calling side detects whether to receive the quick tonal signal (QTS) for instructing the start of the shortening procedure or the calling menu signal CM. .
  • QTS quick tonal signal
  • the calling side detects whether to receive the quick tonal signal (QTS) for instructing the start of the shortening procedure or the calling menu signal CM. .
  • QTS quick tonal signal
  • CM calling menu signal
  • ST 803 to ST 804 when a QTS signal is detected, communication is performed in a shortened procedure using the registered communication parameters.
  • CM ITU-T T30 is used. Communication is performed in the normal procedure according to ANEXF.
  • the receiver has a function to execute the shortening procedure, the device itself has the shortening procedure function in the non-standard procedure signal NSF field of the facsimile control signal when performing normal procedure communication. Describe the shortened procedure registration flag indicating that this is the case and the optimal training time.
  • the transmitter registers the shortening procedure for this receiver based on the
  • the pre-communication procedure at the time of registration of the shortened procedure is performed according to the normal communication procedure according to Recommendation V.34 described above.
  • the dialing call and the CNG transmission are performed from the transmitter, and the arrival of the modified response tone ANS am transmitted from the receiver is awaited.
  • the receiver In ST910, in the facsimile control procedure, in the NSF (non-standard procedure) field transmitted from the receiver, the receiver It is determined whether or not there is a flag indicating whether or not it is mounted.
  • NSF non-standard procedure
  • various non-standard functions related to the execution of the V.34 communication procedure can be set. However, since they are not related to the present invention, the description is omitted here.
  • the receiver In ST911 to ST914, if the receiver has a shortened procedure execution function, it checks whether or not the outgoing call was made by a memory key operation. In the case of Yes, after confirming whether or not the registration of the modem parameters is possible, register the various modem parameters from ST 906 to ST 909 in correspondence with the destination of the memory key, and Shift to 34 communication procedure. If the registration processing of the modem parameters is prohibited in ST912, the storage processing of various modem parameters in ST913 is not executed.
  • the storage parameter of the storage means is checked. In other words, if the error rate at which the shortening procedure does not succeed within the guard time period is high, the modem parameters in the memory 108 are deleted, and the modem parameters are updated as necessary. The check processing and update of the storage parameters will be described later.
  • the procedure directly proceeds to V.34 communication procedure.
  • the procedure directly proceeds to the V ⁇ 34 communication procedure. This is because, in the case of dialing with the memory key, an area for registering modem parameters is prepared in memory in advance, but in the case of dialing with ordinary numeric keys, the parameters are stored in memory. This is because there is no area.
  • the communication procedure at the time of registration of the abbreviated procedure is performed according to the normal procedure as recommended by the ITU-T T30 ANEXF, and by registering various modem parameters in the memory 108 of the calling apparatus, the next communication is performed. It is possible to communicate using the parameters registered from.
  • FIG. 11 is a control signal diagram of a communication procedure at the time of the shortening procedure, and shows a communication process from connection of a line to communication of image data. After connecting the line, perform the communication procedure 10a for starting the shortening procedure, and then perform the communication procedure 10b for modem training according to the registered time.
  • facsimile control signal communication procedure 10d facsimile control signal communication procedure 10d
  • data (image data) transmission procedure 10e data (image data) transmission procedure
  • the calling side transmits a calling station identification signal CNG, and the called side apparatus transmits a modified response tone signal AN Sam. After detecting the modified response tone signal ANS am signal, the calling side transmits the quick tonal signal QTS, detects the response signal tone A from the called side, and transmits the tone B and QINFO. After detecting the quick tonal signal QTS from the calling side, the called side device transmits a tone A, and transmits the Q to the calling side.
  • This quick tonal signal QTS is an instruction signal for transition to the shortening procedure.
  • the quick tonal signal QTS has a repeating pattern of "001 1001 1001 1".
  • the reason for using such a null signal pattern is that the quick tonal signal QTS received by the receiver is converted to the signal sequence of the flag sequence ("0 1 1 1 1") specified in ITU-T Recommendation T.30. 1 10 ") and the tonal signal pattern of the calling menu signal CM (2-bit start bit" 10 ", data 8 bits, stop bit” 1 ").
  • the receiver side determines whether the incoming tonal signal is the quick tonal signal QTS or the calling menu signal CM. Whether the communication is communication in the short procedure or communication in the normal procedure can be easily identified in the same sequence.
  • the communication According to the contents registered in the shortening procedure registration memory for each telephone number, that is, according to the training parameters when registering the shortening procedure (INFOOh), the optimal training time, and the nonlinear distortion correction selection, V . 21 modem 204 (300 bps, full duplex).
  • the signal CM, JM, CJ, and the line probing procedure 19b shown in Fig. 1 of the communication procedure 10a which were required in the conventional pre-procedure, can be deleted. .
  • modem training time can be reduced. As a result, the time required for the pre-communication procedure is reduced accordingly.
  • the modem training between the transmitting device and the receiving device is executed according to the above-described training parameters (INFOH) of the QI NFO sequence and the optimal training time. Is done. Since this optimal training time is also the minimum required time registered in advance, the time required for the pre-communication procedure is reduced.
  • INFOH training parameters
  • the setting of the called MPh to communicate with depends on the nonlinear distortion correction selection of QI NF ⁇ and the SN ratio calculated in the communication procedure 10c of modem training. Based on information and Therefore, even in this sequence, the time can be reduced.
  • the facsimile control procedure 10e and the data communication procedure 10f are the same as the normal V.34 communication procedure.
  • the communication procedure at the time of the shortening procedure is to shorten the pre-procedure by the original procedure only for the procedure prior to the start of communication.
  • the communication procedure of the modem training that follows, basically, the ITU-T By performing communication in accordance with the recommendations of T30 ANEXF, the overall communication time was reduced.
  • the pre-communication procedure is always executed in the shortening procedure mode for subsequent communications. Will be done. Therefore, when the modulation mode of the registered receiver is changed or the line characteristics are changed, the sequence for updating this is omitted, so that it is adjusted according to the changed modulation mode and line characteristics. Therefore, it becomes impossible to update the setting values of the modem parameters overnight. Specifically, for example, in the following cases, the modulation mode and line characteristics fluctuate, and in such a case, the registered modem parameters may not be able to execute the shortening procedure normally.
  • the registration destination is the main phone, and the partner model changes each time the connection is made.
  • the necessity of registration of the modem parameters for the shortening procedure, the update of the registration, and the like can be dynamically changed in response to such a situation. This avoids problems where the shortening procedure does not succeed or the bit rate drops as much as possible.
  • FIG. 12 is a flowchart illustrating a process performed when the transmitter fails in recovery by the modem and cannot shift to the shortening procedure.
  • the transmitter performs dial calling and CNG transmission, and waits for the arrival of the modified response tone ANS am transmitted from the receiver. If the modified response tone AN Sam is not detected, the receiver does not support the V.34 communication procedure, and the process proceeds to the conventional G3 procedure.
  • the transmitter executes the shortening procedure after starting the 15-second guard timer. In other words, it transmits the quick tonal signal QTS and executes the communication procedure 10a for starting the shortening procedure. Then, execute the communication procedure 10c for modem training. At this time, it is monitored whether or not the shortened procedure proceeds to the control channel, that is, the communication procedure 10d for setting the modem parameters.
  • the control channel is the sequence 10d and the sequence 10e shown in FIG.
  • the transmitting apparatus enters a mode of waiting for a 300 bps signal reception, and enters a T.30 NS FZCS I ZD I S reception standby state.
  • the time-out occurs when the modem proceeds with the communication procedure from sending the QI NF ⁇ signal to sending the PPh signal, and even though the modem has performed the recovery process, the receiving device does not respond to the PPh signal. If the state continues for 15 seconds.
  • the storage parameters registered in the memory 108 are checked, the received NSF or DIS is checked after executing the evening check processing, and the receiving device performs the V.8 communication procedure. Check if it is supported. If the receiving device does not support the V.8 communication procedure, move to the conventional G3 procedure.
  • the shortening procedure does not succeed within the guard time, the modem parameters in the memory 108 are erased, and as described later, Update it as needed.
  • the shortening procedure does not proceed normally within 15 seconds, it shifts to the 300 bps signal waiting mode.
  • the receiving device is a model that does not have the shortening procedure function, it is highly likely that it sends out 300 bps NSF signals and DIS signals. Therefore, communication is continued by receiving these signals and executing the G3 communication procedure. By this processing, the worst case that a communication error occurs can be avoided.
  • the guard time was set to 15 seconds for the following reasons.
  • the T.30 procedure stipulates that the transmission of NS FZC SI ZD IS is performed repeatedly for 35 seconds, and the interval between NS FZC SI ZD IS is 3 seconds. Also, the length of NS FZC SI ZD IS varies depending on the length of NSF, but is usually several tens of octets, so it is in the range of 3 to 5 seconds. If the procedure shifts to the T.30 procedure 15 seconds after the start of communication, the transmitting device can receive this NSF / CSI / DIS signal multiple times. If the shortening procedure fails, it is necessary to receive the NS FZC SI / DIS signal at least twice so that the card time is determined by securing the time required for this reception. As a result, the worst case of failing the shortening procedure and failing to shift to the T.30 procedure can be reliably avoided.
  • a method of counting the number of retries of the shortening procedure or the number of times of transmitting a specific signal, instead of the guard time, may be appropriately adopted.
  • ST 1114 if it is determined in ST 1 12 that the receiving-side device supports the V.8 communication procedure, the process shifts to processing B and executes the normal V.34 procedure.
  • Process B is a process in which the short procedure registration processing is performed simultaneously with the execution of the V.34 procedure. As described above, by shifting to the processing B, even if the pre-shortening procedure does not proceed normally, the modem / parameters are acquired again and the communication of the pre-shortening procedure in the subsequent communication is performed. Reduce communication time by executing be able to.
  • the shortening procedure is not executed, and the normal communication procedure is executed. If the error of this execution of the shortening procedure is not the reason that the receiver does not support the shortening procedure but has another cause, it is desirable to be able to execute the shortening procedure in the next and subsequent times.
  • the present invention repeats the process B, that is, the registration process of the shortened procedure shown in FIG.
  • the receiver performs the V.34 normal procedure and performs the short procedure registration processing for registering the modem parameters.
  • the procedure shifts to the T.30 procedure to continue the communication.
  • the V.34 procedure is retried again to update the modem parameters.
  • the execution of the shortening procedure indicates that, although an error has occurred, there is a track record of previously performing the shortening procedure. Therefore, it is considered that there is a high possibility that the shortening procedure can be executed normally again by updating the modem parameters. For this reason, as described above, the trial process is performed when the shortening procedure is executed.
  • this sequence deletes the registered modem parameters according to the situation, and sets the error rate.
  • the function is to stop the function of registering the modem parameter itself when the value exceeds a certain value. This is based on the consideration that if communication cannot be performed normally even after attempting to register modem parameters a certain number of times, it is useless to repeat this. Until the set number of times, the process of trying to register the shortened procedure is repeated. It is.
  • the modem parameters stored in the memory 108 are deleted.
  • the deletion of the modem parameters is performed in the following cases.
  • the modem parameters are deleted.
  • the line condition is very good, but in actual communication, the line condition is bad.
  • the line quality often differs between the time of modem parameter registration and actual communication. In such a case, it is considered that the communication speed is improved by not using the set modem parameters.
  • the determination of the bit rate may be determined by monitoring the error rate during communication and successively comparing the error rate with the error rate at the start of communication that is stored in advance.
  • the modem parameters are deleted.
  • 14.4 kb of V.17 communication procedure is used as the reference value. If Ps is used and the bit rate is lower than that, the registered modem parameters are deleted. According to the registered modem parameters, the communication speed is faster in the V.17 procedure than in the V.34 procedure.
  • the memory 108 is left empty so that the modem parameters are continuously registered in the next and subsequent communication. This reduces the shortened procedure error to a certain value At this point, the transition to the process of registering the modem parameters for the shortening procedure is prohibited and the shortening procedure cannot be executed. On the other hand, if the execution of the shortening procedure fails, it takes longer than normal communication, which is not preferable.
  • FIG. 15 is a flowchart showing a process when the destination name is changed.
  • FIG. 16 is a flowchart showing processing when the destination telephone number is changed.
  • ST 1501 to ST 1502 a telephone number is input, and it is determined whether or not the telephone number has been changed.
  • the processing shown in FIG. 15 and the processing shown in FIG. 16 are selectively operated. As a result, if there is a change in the telephone number entered by the operator, the contents of the memory including the parameters are automatically deleted, while if there is no change in the telephone number, the user is prompted to input the destination and thereafter Then, it is in a state of waiting for a judgment as to whether or not to erase the stored parameters.
  • the memory contents including the parameters are automatically deleted because the receiving device itself has moved when the telephone number is changed. In many cases, it is necessary to update the modem parameters during the next communication.
  • Changing your phone number usually involves changing the line you connect to. Specifically, the line is often changed from an analog line to an ISDN line. In this case, it is considered that in many cases, the line characteristics are changed. Therefore, the following processing is performed.
  • the parameters in the memory 108 are cleared, but the already registered destination itself remains as it is, so the modem parameters are updated one by one in the next and subsequent communications. Is executed.
  • the memory was cleared automatically, but it may be necessary to do this manually.
  • a new terminal such as an overnight adapter, is connected between the data communication and the line, or the connected terminal is changed.
  • the telephone number does not change, but the line characteristics change, so it is necessary to clear the modem parameters of all destinations and update the modem parameters.
  • the pre-abbreviated communication procedure fails continuously for multiple destinations, there is a possibility that the line connected to the own device has been changed from an analog line to ISDN. high. Therefore, in this case as well, it is possible to retain only the registered destination as it is, and delete and update all control information corresponding to all destinations such as registered modem parameters. is there. As a result, it is possible to avoid the inconvenience of repeating the unnecessary preparatory communication procedure.
  • a modified response signal ANS am is transmitted in response to the calling signal C NG arriving from the transmitting device, and a quick tonal (QTS) signal transmitted by the transmitting device is detected.
  • QTS quick tonal
  • ST 1705 to ST 1706 received QTS signal in ST 1702
  • the card timer starts counting for 15 seconds and instructs the modem of its own device to execute the shortening procedure.
  • control channel sequence is executed after confirming whether or not the pre-communication procedure has reached the establishment of the control channel via the modem training sequence.
  • the guard timer is monitored for count-up, and when the timeout occurs, communication is performed according to the G3 procedure of 300 bps. If no CM signal is detected in ST 1703, that is, if the transmitter only subscribes to the V.17 procedure or less, communication is performed in the G3 procedure.
  • the reason why the receiving device spends 15 seconds of card time on the receiving device is in accordance with the processing of the transmitting device. In other words, if the transmitting device does not reach the control channel within 15 seconds, it switches to the mode for receiving 300 bps NSF / CSI / DIS and operates to proceed with the G3 procedure. For this reason, there is no point in waiting for more than 15 seconds, so the receiving device should also proceed to the G3 procedure.
  • control information is deleted from the storage means after a period of time has passed since the registration of the control information in the storage means, and the control information is updated by the parameter registration means. It is also possible. As a result, the modem control information registered in the storage means can always be maintained in an optimum state.
  • the renewal timing can be calculated from the registration timing of each destination, or the renewal timing can be performed for all the destinations registered by the periodic timer at the same time.
  • the control information is registered in the storage means by one normal communication.
  • a memory control means for rewriting the control information of the modem registered in the storage means is provided.
  • the memory control means corrects the modem control information registered in the storage means in consideration of the newly obtained modem control information. Re-record You may do it.
  • the control information in the storage means instead of registering the control information in the storage means only once, the average value of the parameters acquired by the communication of multiple parties is calculated, taking into account the history of multiple communications, to achieve optimal control. If information is registered, the success of the shortened communication pre-procedure will be further improved.
  • the parameters are corrected and learned every time communication is performed, so that the modem parameters are maintained at the optimum value.Thus, while using the shortening procedure, the communication time is short, the communication speed is fast, and the error rate is high. Optimum communication can be performed.
  • the rules for correcting parameters over time are, for example, plotting the main parameters of registered control information and new control information in a multidimensional space, searching for the center of gravity, and searching for the center of gravity. A method such as taking a middle point can be considered. At this time, it is advisable to weight the data to be used as appropriate according to the number of times the previous pre-shortened communication procedure was executed. Furthermore, in order to improve the correction accuracy, it is conceivable to limit the parameters used as correction data to those within a certain range.
  • the transmitting device registers the shortened procedure in association with the other party's telephone number at the time of dialing.
  • the source telephone number of the exchange whose service has recently started has been described.
  • the modem parameters are registered on the receiving device in accordance with the notified source phone number.
  • ST 1801 to ST 1803 in ST 1801 to ST 1803, when the telephone number from the sender's telephone number notification service is notified from the transmitter to the receiver, the receiver registers the one-touch key or speed dial registered in the memory on the receiver. Look up the number and check if there is a corresponding phone number.
  • either the transmitting device or the receiving device registers information such as the modem parameters, the optimal training time, and the modulation mode in the memory.
  • both the transmitting device and the receiving device it is also possible for both the transmitting device and the receiving device to register the information in the memory.
  • the transmission side device and the reception side device can omit the communication procedure 19a shown in FIG. 1 and start from the training communication procedure 19b after receiving the call. In that case, the time of the pre-communication procedure is further reduced because it is not necessary to exchange such information in the communication procedure.
  • the modem parameters and the optimal training time of the modem are stored in association with the other party's telephone number, and in the subsequent communication, the stored modem parameters and the optimal training time are stored. Performing the pre-communication procedure according to the training time can significantly reduce the communication procedure.
  • the parameters can be updated at once or the execution of the shortening procedure can be prohibited. It is possible to always execute the shortening procedure in an appropriate state while avoiding a situation in which the communication time becomes too long.

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Communication Control (AREA)
  • Facsimile Transmission Control (AREA)
  • Telephonic Communication Services (AREA)

Abstract

Les informations de commande relatives au modem pour chaque adresse sont mises en mémoire. Au moment de la communication, le modem utilisé est actionné en fonction de ces informations de commande mises en mémoire et une procédure de précommunication est simplifiée pour la transmission des données. Si la procédure de précommunication simplifiée ne progresse pas normalement, on change cette procédure pour adopter une seconde procédure de communication avec une vitesse plus lente après un laps de temps prédéterminé pour poursuivre la communication. Si une anomalie se produit après la procédure de précommunication simplifiée, les informations de commande mise, en mémoire sont effacées/actualisées. Ainsi, la durée de la procédure de précommunication est raccourcie et, en outre, la fonction adoptée en procédure raccourcie fonctionne toujours correctement, même si le taux d'erreur de la communication est élevé ou que les caractéristiques de ligne sont changées.
PCT/JP1998/004978 1997-11-05 1998-11-05 Dispositif de communication de donnees et procede de communication de donnees WO1999023814A1 (fr)

Priority Applications (7)

Application Number Priority Date Filing Date Title
BR9806845-8A BR9806845A (pt) 1997-11-05 1998-11-05 Aparelho de comunicação e método de comunicação de dados
EP98951692A EP0973323B1 (fr) 1997-11-05 1998-11-05 Dispositif de communication de donnees et procede de communication de donnees
US09/331,716 US6449349B1 (en) 1997-11-05 1998-11-05 Data communication device and data communication method
CNB988016850A CN1158852C (zh) 1997-11-05 1998-11-05 数据通信装置和数据通信方法
DE69836906T DE69836906T2 (de) 1997-11-05 1998-11-05 Datenübertragungsvorrichtung und -verfahren
CA002276775A CA2276775C (fr) 1997-11-05 1998-11-05 Dispositif de communication de donnees et procede de communication de donnees
HK00102274A HK1023247A1 (en) 1997-11-05 2000-04-14 Data communication device and data communication method

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JP9/318954 1997-11-05
JP31895497A JP3426122B2 (ja) 1997-11-05 1997-11-05 データ通信装置

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US10/199,125 Continuation US6606375B2 (en) 1997-11-05 2002-07-22 Data communication apparatus and data communication method

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JP3426122B2 (ja) 2003-07-14
US20020181679A1 (en) 2002-12-05
EP0973323A1 (fr) 2000-01-19
DE69836906T2 (de) 2007-05-24
CN1243632A (zh) 2000-02-02
US6449349B1 (en) 2002-09-10
BR9806845A (pt) 2000-03-14
EP0973323B1 (fr) 2007-01-17
CN1158852C (zh) 2004-07-21
US6606375B2 (en) 2003-08-12
ATE352168T1 (de) 2007-02-15
DE69836906D1 (de) 2007-03-08
CA2276775C (fr) 2001-10-02
KR100339167B1 (ko) 2002-06-01
KR20000069871A (ko) 2000-11-25
HK1023247A1 (en) 2000-09-01
EP0973323A4 (fr) 2003-01-15
JPH11146171A (ja) 1999-05-28
CA2276775A1 (fr) 1999-05-14

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